EP0921520A2

EP0921520A2 - Power transmission system with a gearwheel and a toothed rack

Info

Publication number: EP0921520A2
Application number: EP98122083A
Authority: EP
Inventors: Fritz Weisser
Original assignee: Deutsche Thomson Brandt GmbH
Current assignee: Deutsche Thomson Brandt GmbH
Priority date: 1997-12-05
Filing date: 1998-11-21
Publication date: 1999-06-09
Anticipated expiration: 2018-11-21
Also published as: JPH11230295A; US6250169B1; EP0921520A3; EP0921520B1; DE19753897A1; JP4269373B2; DE69835132D1; CN1218955A; DE69835132T2; CN1109340C

Abstract

The invention relates to a power transmission system with a gearwheel (R2) and a toothed rack (ZS) which ensures increased power transmission and protection of the toothing in the end region of a rack. According to the invention, an engagement securing system is provided for the rack and gearwheel, which system is formed by a lug (N) arranged on the rack and intended to engage in a guide (F) connected to the gearwheel. The guide connected to the gearwheel is preferably a groove which is provided in the disk connected to the gearwheel. Advantageously, no additional individual parts are required.

The range of applications relates to an automatic transport securing system in recording or playback equipment for optical, magneto-optical or other recording media as well as other rack drive systems with increased power transmission in the end region of the rack.

Description

The invention relates to a power transmission system with a gearwheel and a toothed rack which ensures increased power transmission and protection of the toothing in the end region of a toothed rack and can be used as an automatic transport securing system in recording or playback equipment for optical, magneto-optical or other recording media as well as for other rack drive systems with increased power transmission in the end region of the rack.
Recording or playback equipment for optical or magneto-optical recording media, such as for example laser disc, compact disc, minidisc or DVD players, are generally known. In such recording or playback equipment, a scanning device provided in the form of a movable writing or reading system is used for reading the information or data from the recording medium or recording it on the recording medium. The writing or reading system is arranged on a carriage, which is movable in order to be able to follow the track of the recording medium to be read or recorded onto. For the carriage to be movable, a rack which is driven by a gearwheel is provided on the carriage. The scanning device provided in the form of a movable writing or reading system is in this case either provided as a so-called linear drive or comprises a coarse drive and a fine drive. In the case of the scanning device comprising a coarse and fine drive, the coarse drive is provided as the carriage, on which the fine drive is arranged. This construction corresponds to a so-called CD-Mechadeck, as used for example in CD players. Such a CD-Mechadeck may, however, also be designed and used as a writing or reading system for other recording media, such as for example DVD or minidisc. The writing or reading system driven by a gearwheel via a toothed rack has a mass which causes the toothing of the rack and/or gearwheel to be damaged, in particular if the equipment is subjected to strong vibration during transport. In addition, to save an additional drive for a loading or unloading device for the recording medium, it is desirable to ensure the transmission of a high level of power with the drive system comprising the gearwheel and toothed rack, so that the loading or unloading device for the recording medium can be driven directly by the carriage. An obvious strengthening of the gearwheel and rack to ensure a higher power transmission and to prevent damage during transport is ruled out as a solution to the problem, however, since it involves increased expenditure on material and requires more space.
It is the object of the invention to provide a power transmission system with a gearwheel and a toothed rack which ensures increased power transmission and protection of the toothing and can be used as an automatic transport securing system in recording or playback equipment for optical recording media without strengthening the gearwheel and rack.
This object is achieved by features specified in the main claims. Advantageous designs and developments are specified in subclaims.
One aspect of the invention is to provide a power transmission system with a gearwheel and a toothed rack which ensures increased power transmission and protection of the toothing. For this purpose, an engagement securing system is provided. Since a strengthening of the gearwheel and rack is ruled out as a solution, the starting point is for increased power transmission and protection of the toothing to be ensured by an engagement securing system which ensures secure engagement of the teeth of the gearwheel and the rack even under the conditions of increased power transmission between the gearwheel and the rack.
A further aspect of the invention is that the number of individual parts of the power transmission system comprising the gearwheel and the rack is not increased. This rules out the possibility of increased power transmission being accomplished by an additional clamping means for a shaft clamped only at one end, on which shaft the gearwheel is guided, even though a shaft clamped only at one end is to be regarded as one of the causes for the rack displacing the gearwheel out of its position and for the teeth coming into engagement with one another in another position. So-called chattering of the teeth of the rack over the teeth of the gearwheel disadvantageously leads to the teeth of the rack and/or gearwheel being damaged. On account of the high accuracy requirements which the guiding of the carriage with the rack and gearwheel have to meet for the tracking of the writing or reading system for optical recording media, such damage cannot be allowed. Therefore, an engagement securing system is provided to solve the problem. The engagement securing system of the power transmission system with a gearwheel and a toothed rack for movable writing or reading systems for optical recording media is preferably provided in the end region of the rack, since this is the customary position of the writing or reading system for optical recording media during the transporting and the loading or unloading of the recording medium. According to one design of the engagement securing system, the engagement securing system is formed by a lug of the toothed rack which engages in a guide connected to the gearwheel. The guide connected to the gearwheel is in this case preferably formed by a groove which is provided in a disk connected to the gearwheel. The lug of the rack engaging in the guide or groove of the disk of the gearwheel forms an engagement securing system, since it prevents displacement of the position of the gearwheel with respect to the rack and, as a result, the teeth of the gearwheel and rack cannot come into engagement with one another in another position. The clamping of the gearwheel and rack achieved with the lug and the guide ensures increased power transmission in the region of the engagement securing system. A gearwheel guided on a shaft clamped at one end can no longer be displaced out of its position by the rack. As a result, the engagement securing system both forms an automatic transport securing system and ensures increased power transmission, which can advantageously be used for driving a loading or unloading device for the optical recording medium. An additional drive for the loading or unloading device for the optical recording medium is saved as a result.
The invention is explained in more detail below in an exemplary embodiment with reference to drawings, in which:
Figure 1 shows a basic diagram of a CD-Mechadeck,
Figure 2 shows a basic diagram of an engagement securing system in a position shortly before engagement,
Figure 3 shows a basic diagram of the engagement securing system in an engagement position,
Figure 4 shows a basic diagram of the engagement securing system in an end-of-engagement position.
The same designations are used throughout the figures. Represented in Figure 1 is the basic diagram of a CD-Mechadeck, as used in principle, in a known way, in CD, minidisc or DVD players.
The CD-Mechadeck comprises a turntable DT for receiving the recording medium. The turntable DT represented in Figure 1 is intended for receiving a CD and is adapted for receiving other recording media, such as for example a minidisc. It is driven by a turntable motor DM, which sets the recording medium (not shown) in rotation via the turntable DT. The rotating recording medium is then scanned or recorded onto by a writing or reading system PU, referred to as a pick-up. For this purpose, the writing or reading system PU is provided in such a way that it can be moved on a carriage, in order to be able to follow the track of the recording medium. For the carriage to be movable, a guide rail FS and a toothed rack ZS arranged on the carriage, or on the writing or reading system PU, are provided. In the case of the exemplary embodiment represented in Figure 1, the rack ZS is driven via a second gearwheel ZR2 and a first gearwheel ZR1 by a pinion RM of a coarse drive motor TM, which is arranged on a shaft W of the coarse drive motor TM. However, the invention is not restricted to a drive having a plurality of gearwheels ZR1, ZR2. It is also not important for the invention whether the rack ZS of the design represented in Figure 1 is correspondingly of a two-part or one-part design. The two-part design of the rack ZS with two racks clamped against each other by a spring is intended for reducing the backlash between the rack ZS and a gearwheel ZR2 or pinion R2 driving said rack.
It is also not important whether the recording medium is a rotating recording medium, or the recording medium is guided in a transversal movement over the movable writing or reading system PU.
The drive of the rack ZS represented in Figure 1, via a plurality of gearwheels ZR1, ZR2 and pinions RM, R1, R2, is intended for accomplishing a corresponding transmission step-up between the rotational speed of the coarse drive motor TM and the speed with which the carriage or the rack ZS is moved.
Also possible in principle, however, is a design in which the rack ZS is driven directly by a pinion RM. According to the design corresponding to Figures 1 to 4, the rack ZS is driven by a pinion R2.
The terms pinion and rack are used synonymously in this application, since they merely express a comparison of the number of teeth and a pinion becomes a rack if a relationship with a greater number of teeth cannot be established, as in the case when the rack ZS is driven by only one pinion RM, which may be a gearwheel. Analogously, the pinion R2 could be a gearwheel ZR2, if the gearwheel ZR2 does not have a comparatively greater toothed rim and the pinion R2 is the driving gearwheel.
In order to provide a power transmission system with a gearwheel or pinion R2 and a toothed rack ZS which ensures increased power transmission and protection of the toothing, an engagement securing system is provided, the basic construction of which is represented in Figures 2 to 4.
The engagement securing system comprises a lug N, which is arranged on the rack ZS and is intended to engage in a guide F connected to the gearwheel ZR2 or pinion R2. This guide F is formed by a groove which is arranged, for example, in a disk S connected to the pinion R2. The path followed by the groove or the guide F is adapted to the movement which the lug N describes on the disk S during the rolling of the pinion R2 on the rack ZS. The movement or the path of the guide F is determined by the transmission ratio between the rack ZS and pinion R2 and the distance from the lug N to the front of the rack ZS. The lug N and the guide F are matched to one another in such a way as to ensure that the lug N slides in the guide F without any backlash while the pinion R2 rolls on the rack ZS without any backlash. The path followed by the guide F or the groove in the disk S is determined correspondingly. The disk S has a diameter which is greater than the diameter of the pinion R2, by which it is guided on a common spindle or a shaft W2. The diameter of the disk S determines the beginning of the operative range of the engagement securing system, the length of which is limited on the other hand by the diameter of the pinion R2. The operative range of the engagement securing system extends over a range thereby determined, which is therefore preferably provided in the end region of the rack ZS.
Figure 2 shows the engagement securing system in a position shortly before engagement. In this position, the lug N, which is arranged at the end of the rack ZS and on the rack ZS, at a distance from the front of the rack ZS, is still outside the guide F of the disk S, and the rack ZS or the writing or reading system PU can still be moved from this position over a distance up to an end position represented in Figure 4. To make it possible for the lug N to run into the guide F, the disk S has before the operative range of the engagement securing system a reduced radius in comparison with its maximum diameter. The path followed by the guide F or the groove in the disk S is represented in Figure 2, and Figures 3 and 4 show the movement up to the end-of-engagement position or up to the furthest position to which the rack ZS can be driven by the pinion R2.
The end-of-engagement position corresponding to Figure 4 or a position in the operative range of the engagement securing system according to Figure 3 is a position of the writing or reading system PU into which the writing or reading system PU is usually moved in the case of all known equipment before or after playing or recording. The writing or reading system PU is also located in such an end region during the transporting of the equipment.
During transporting, unavoidable vibration and shock impact occur, and the equipment is to be fully functional even after it is accidentally dropped from a certain height.
In the case of known equipment without an engagement securing system, tests in which the equipment was subjected to 80 times acceleration due to gravity showed that the toothing of the rack and/or gearwheel was damaged and, as a result, the equipment was no longer able to function. 80 times acceleration due to gravity corresponds to dropping the equipment from a height of approximately 60 cm. By contrast, equipment with the engagement securing system withstood the test undamaged.
The engagement securing system, which does not require any additional individual parts since the lug N is a component part of the rack ZS and the disk S is a component part of the pinion R2 or of the gearwheel driving the rack, can therefore be used advantageously as an automatic transport securing system.
The automatic transport securement is ensured by the writing/reading system PU being in a position in the operative range of the engagement securing system during transport and, as a result, the transport securement is automatically set without any additional measures.
With regard to the action of the engagement securing system, the starting point is that a so-called chattering of the teeth of the rack ZS over the teeth of the pinion R2 or of the gearwheel is prevented by the engagement securing system. This effect is achieved by the rack ZS and the gearwheel driving it being clamped to each other by the engagement securing system. A pinion R2, guided on a shaft W2 clamped at one end, cannot be forced away from the rack ZS, so that chattering over the teeth is prevented.
The engagement securing system ensures that the teeth of the rack ZS and pinion R2 or gearwheel always remain in engagement, even while forces originating from an acceleration of the writing or reading system connected to the rack ZS are acting on the rack ZS. As a result, increased power transmission between the rack ZS and the gearwheel driving it is also made possible. This may be used advantageously in order to drive a loading or unloading device for the recording medium by the rack ZS or the carriage carrying the writing or reading system PU. The power transmission system is then to be designed in such a way that a region in the middle of the operative range of the engagement securing system is used for transport securement and the end region of the operative range of the engagement securing system is used for driving the loading or unloading or removal device for the recording medium. As a result, an additional drive for the loading or unloading system is advantageously saved.
It should be mentioned once again that the terms pinion and gearwheel are used synonymously in this description, since the pinion R2 of the gearwheel ZR2 may likewise be referred to as a gearwheel if it has no outer toothed rim AZ. The outer toothed rim AZ is not required if the pinion R2 is driven directly, which means without an additional gearwheel ZR1.
The use and design of the engagement securing system according to the invention are not restricted to the exemplary embodiment specified here.

Claims

Power transmission system with a gearwheel and a toothed rack for movable writing or reading systems (PU) for optical recording media, characterized in that the gearwheel (ZR2, R2) and toothed rack (ZS) have an engagement securing system.
Power transmission system according to Claim 1, characterized in that the engagement securing system is provided in the end region of the rack (ZS).
Power transmission system according to Claim 1, characterized in that the engagement securing system is formed by a lug (N) of the rack (ZS) which is intended to engage in a guide (F) connected to the gearwheel.
Power transmission system according to Claim 3, characterized in that the guide (F) connected to the gearwheel (ZS) is a groove which is provided in a disk (S) connected to the gearwheel (ZR2, R2).
Power transmission system according to Claim 1, characterized in that the engagement securing system is provided as an automatic transport securement.
Power transmission system according to Claim 1, characterized in that the engagement securing system is intended as a power transmission means for increased power transmission in the end region of the rack.
Power transmission system according to Claim 6, characterized in that the power transmission means is intended for increased power transmission in the end region of the rack for driving a loading or unloading device for the optical recording medium.
Power transmission system according to Claim 6, characterized in that the power transmission means for increased power transmission in the end region of the rack is a lug (N) of the rack (ZS) which is intended for engaging in a guide (F) connected to the gearwheel (ZR2, R2).
Power transmission system according to Claim 8, characterized in that the guide (F) connected to the gearwheel (ZR2, R2) is a groove which is provided in a disk (S) connected to the gearwheel (ZR2, R2).
Power transmission system according to Claim 1, characterized in that the gearwheel (ZR2, R2) is guided on a shaft (W2) clamped at one end and an engagement securing system is provided in the end region of the rack.
Power transmission system according to Claim 10, characterized in that the engagement securing system is formed by a lug (N) of the rack (ZS) which is intended to engage in a guide (F) connected to the gearwheel (ZR2, R2).
Power transmission system according to Claim 11, characterized in that the guide (F) connected to the gearwheel (ZR2, R2) is a groove which is provided in a disk (S) connected to the gearwheel (ZR2, R2).
Power transmission system with a gearwheel (ZR2, R2), guided on a shaft (W2) clamped at one end, and a toothed rack (ZS), characterized in that the gearwheel (ZR2, R2) and the rack (ZS) have an engagement securing system.
Power transmission system according to Claim 13, characterized in that the engagement securing system is formed by a lug (N) of the rack (ZS) which is intended for engaging in a guide (F) connected to the gearwheel (ZR2, R2).
Power transmission system according to Claim 13, characterized in that the guide (F) connected to the gearwheel (ZR2, R2) is a groove which is provided in a disk (S) connected to the gearwheel (ZR2, R2).